Mammalian Esterase Activity: Implications for Peptide Prodrugs.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Biochemistry Biochemistry Pub Date : 2024-10-15 Epub Date: 2024-10-03 DOI:10.1021/acs.biochem.4c00446
Yana D Petri, Ruben Verresen, Clair S Gutierrez, Volga Kojasoy, Erika Zhang, Nile S Abularrage, Evans C Wralstad, Kaya R Weiser, Ronald T Raines
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引用次数: 0

Abstract

As a traceless, bioreversible modification, the esterification of carboxyl groups in peptides and proteins has the potential to increase their clinical utility. An impediment is the lack of strategies to quantify esterase-catalyzed hydrolysis rates for esters in esterified biologics. We have developed a continuous Förster resonance energy transfer (FRET) assay for esterase activity based on a peptidic substrate and a protease, Glu-C, that cleaves a glutamyl peptide bond only if the glutamyl side chain is a free acid. Using pig liver esterase (PLE) and human carboxylesterases, we validated the assay with substrates containing simple esters (e.g., ethyl) and esters designed to be released by self-immolation upon quinone methide elimination. We found that simple esters were not cleaved by esterases, likely for steric reasons. To account for the relatively low rate of quinone methide elimination, we extended the mathematics of the traditional Michaelis-Menten model to conclude with a first-order intermediate decay step. By exploring two regimes of our substrate → intermediate → product (SIP) model, we evaluated the rate constants for the PLE-catalyzed cleavage of an ester on a glutamyl side chain (kcat/KM = 1.63 × 103 M-1 s-1) and subsequent spontaneous quinone methide elimination to regenerate the unmodified peptide (kI = 0.00325 s-1; t1/2 = 3.55 min). The detection of esterase activity was also feasible in the human intestinal S9 fraction. Our assay and SIP model increase the understanding of the release kinetics of esterified biologics and facilitate the rational design of efficacious peptide prodrugs.

哺乳动物的酯酶活性:肽原药的意义。
肽和蛋白质中的羧基酯化是一种无痕迹、生物可逆的修饰,有可能提高它们的临床效用。一个障碍是缺乏量化酯化生物制剂中酯催化水解率的策略。我们开发了一种连续佛尔斯特共振能量转移(FRET)测定法,以肽底物和蛋白酶 Glu-C 为基础测定酯酶活性,Glu-C 只在谷氨酰侧链是游离酸的情况下裂解谷氨酰肽键。我们利用猪肝酯酶(PLE)和人类羧基酯酶,用含有简单酯类(如乙基)的底物和设计成在醌甲酰胺消除时通过自焚烧释放的酯类验证了该检测方法。我们发现,简单的酯类不会被酯酶裂解,这可能是由于立体原因。为了解释相对较低的甲脒醌消除率,我们扩展了传统的迈克尔-门顿模型的数学计算,以一阶中间衰减步骤作为结论。通过探索底物→中间体→产物(SIP)模型的两种机制,我们评估了 PLE 催化裂解谷氨酰侧链上的酯的速率常数(kcat/KM = 1.63 × 103 M-1 s-1)和随后自发消除醌甲酰肽以重新生成未修饰肽的速率常数(kI = 0.00325 s-1; t1/2 = 3.55 分钟)。在人体肠道 S9 组分中也能检测到酯酶活性。我们的检测方法和 SIP 模型加深了人们对酯化生物制剂释放动力学的理解,有助于合理设计有效的多肽原药。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biochemistry Biochemistry
Biochemistry Biochemistry 生物-生化与分子生物学
CiteScore
5.50
自引率
3.40%
发文量
336
审稿时长
1-2 weeks
期刊介绍: Biochemistry provides an international forum for publishing exceptional, rigorous, high-impact research across all of biological chemistry. This broad scope includes studies on the chemical, physical, mechanistic, and/or structural basis of biological or cell function, and encompasses the fields of chemical biology, synthetic biology, disease biology, cell biology, nucleic acid biology, neuroscience, structural biology, and biophysics. In addition to traditional Research Articles, Biochemistry also publishes Communications, Viewpoints, and Perspectives, as well as From the Bench articles that report new methods of particular interest to the biological chemistry community.
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